Arsenic in petroleum-contaminated groundwater near Bemidji, Minnesota is predicted to persist for centuries

Brady A. Ziegler, G. H. Crystal Ng, Isabelle M. Cozzarelli, Aubrey J. Dunshee, Madeline E. Schreiber

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

We used a reactive transport model to investigate the cycling of geogenic arsenic (As) in a petroleum-contaminated aquifer. We simulated As mobilization and sequestration using surface complexation reactions with Fe(OH)3 during petroleum biodegradation coupled with Fe-reduction. Model results predict that dissolved As in the plume will exceed the U.S. and EU 10 µg/L drinking water standard for ~400 years. Non-volatile dissolved organic carbon (NVDOC) in the model promotes As mobilization by exerting oxygen demand, which maintains anoxic conditions in the aquifer. After NVDOC degrades, As re-associates with Fe(OH)3 as oxygenated conditions are reestablished. Over the 400-year simulation, As transport resembles a “roll front” in which: (1) arsenic sorbed to Fe(OH)3 is released during Fe-reduction coupled to petroleum biodegradation; (2) dissolved As resorbs to Fe(OH)3 at the plume’s leading edge; and (3) over time, the plume expands, and resorbed As is re-released into groundwater. This “roll front” behavior underscores the transience of sorption as an As attenuation mechanism. Over the plume’s lifespan, simulations suggest that As will contaminate more groundwater than benzene from the oil spill. At its maximum, the model simulates that ~5.7× more groundwater will be contaminated by As than benzene, suggesting that As could pose a greater long-term water quality threat than benzene in this petroleum-contaminated aquifer.

Original languageEnglish (US)
Article number1485
JournalWater (Switzerland)
Volume13
Issue number11
DOIs
StatePublished - Jun 1 2021

Bibliographical note

Funding Information:
Funding: This project was supported by the U.S. Geological Survey (USGS) Toxic Substances Hydrology Program and the National Research Program. Additional funding was provided by a collaborative venture of the USGS, Enbridge Energy Limited Partnership, the Minnesota Pollution Control Agency, and Beltrami County, MN.

Funding Information:
This project was supported by the U.S. Geological Survey (USGS) Toxic Substances Hydrology Program and the National Research Program. Additional funding was provided by a collaborative venture of the USGS, Enbridge Energy Limited Partnership, the Minnesota Pollution Control Agency, and Beltrami County, MN.

Publisher Copyright:
© 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Keywords

  • Arsenic
  • Biodegradation
  • Iron reduction
  • Oil
  • Reactive transport modeling
  • Sorption
  • Surface complexation

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